Development of High Field Optically Detected Magnetic Resonance
ORAL
Abstract
A nitrogen-vacancy (NV) center in diamond possesses a unique electronic structure enabling single spin sensing through optically detected magnetic resonance (ODMR). Electron spin resonance (ESR) conducted through a single NV center is promising for the improvement of ESR spin sensitivity to single spin levels [1]. Here, we discuss a platform for nanoscale NV-based ESR at high magnetic fields. We present the development of a high-field ODMR system consisting of a high-frequency excitation component, superconducting magnet, NV detection system, microscope system and sample stage. We also plan to implement the capability of pulse shaping to increase the excitation bandwidth, consequently improving the signal-to-noise ratio. Double electron-electron resonance measurements of a single NV center at high magnetic fields is also discussed.
[1] V. Stepanov, F. H. Cho, C. Abeywardana and S. Takahashi, Appl. Phys. Lett. 106, 063111 (2015)
[1] V. Stepanov, F. H. Cho, C. Abeywardana and S. Takahashi, Appl. Phys. Lett. 106, 063111 (2015)
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Presenters
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Benjamin Fortman
Chemistry, University of Southern California
Authors
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Benjamin Fortman
Chemistry, University of Southern California
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Chathuranga Abeywardana
Department of Chemistry, Univ of Southern California, Chemistry Department, University of Southern California, Chemistry, University of Southern California
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Susumu Takahashi
Department of Chemistry, Department of Physics & Astronomy, Univ of Southern California, University of Southern California, Chemistry and Physics & Astronomy Department, University of Southern California, Chemistry and Physics & Astronomy, University of Southern California